A Novel Bridge Deflection Missing Data Repair Model Based on Two-Stage Modal Decomposition and Deep Learning

IF 5.1 2区工程技术 Q1 CONSTRUCTION & BUILDING TECHNOLOGY

Structural Control & Health Monitoring Pub Date : 2025-07-23 DOI:10.1155/stc/5458862

Zhijun Li, Jinrui Yang, Xuehong Li, Xiuli Xu

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引用次数: 0

Abstract

The bridge structural health monitoring (SHM) system will inevitably experience missing data. To ensure the integrity and practicability of the bridge SHM system, it is essential to repair the missing data. The existing data recovery methods mainly use the spatial correlation with other monitoring data but cannot adequately capture the time dependence of the raw monitoring data. This paper uses historical monitoring data to predict future data and complete the task of repairing missing data. A hybrid prediction model based on the gated recurrent unit (GRU) neural network, complete ensemble empirical mode decomposition with adaptive noise (CEEMDAN), and variational mode decomposition (VMD) is proposed. By decomposing the raw monitoring data, the input of the GRU model is optimized, resulting in improved accuracy of prediction and enabling the model to operate independently from other sensors. The accuracy of the method is verified based on the SHM data of a cable-stayed bridge. The prediction results of the proposed model are stable and reliable, with a prediction accuracy reaching 95%, indicating that the CEEMDAN-VMD-GRU model is suitable for repairing missing deflection data in bridge SHM systems.

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基于两阶段模态分解和深度学习的桥梁偏转缺失数据修复模型

桥梁结构健康监测系统不可避免地会出现数据缺失。为了保证桥梁SHM系统的完整性和实用性，必须对缺失的数据进行修复。现有的数据恢复方法主要利用与其他监测数据的空间相关性，不能充分捕捉原始监测数据的时间依赖性。本文利用历史监测数据预测未来数据，完成缺失数据的修复任务。提出了一种基于门控循环单元（GRU）神经网络、带自适应噪声的完全集合经验模态分解（CEEMDAN）和变分模态分解（VMD）的混合预测模型。通过对原始监测数据进行分解，优化GRU模型的输入，提高了预测精度，使模型能够独立于其他传感器运行。通过某斜拉桥的SHM数据验证了该方法的准确性。该模型预测结果稳定可靠，预测精度达到95%，表明CEEMDAN-VMD-GRU模型适用于桥梁SHM系统中缺失挠度数据的修复。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Structural Control & Health Monitoring 工程技术-工程：土木

CiteScore

9.50

自引率

13.00%

发文量

234

审稿时长

8 months

期刊介绍： The Journal Structural Control and Health Monitoring encompasses all theoretical and technological aspects of structural control, structural health monitoring theory and smart materials and structures. The journal focuses on aerospace, civil, infrastructure and mechanical engineering applications. Original contributions based on analytical, computational and experimental methods are solicited in three main areas: monitoring, control, and smart materials and structures, covering subjects such as system identification, health monitoring, health diagnostics, multi-functional materials, signal processing, sensor technology, passive, active and semi active control schemes and implementations, shape memory alloys, piezoelectrics and mechatronics. Also of interest are actuator design, dynamic systems, dynamic stability, artificial intelligence tools, data acquisition, wireless communications, measurements, MEMS/NEMS sensors for local damage detection, optical fibre sensors for health monitoring, remote control of monitoring systems, sensor-logger combinations for mobile applications, corrosion sensors, scour indicators and experimental techniques.